Integrated Nodes, Computer Readable Media and Program Products, and Computer-Implemented Methods For Providing An Integrated Node For Data Acquisition, Verification and Conditioning, and for Remote Subsystem Control

1. A system comprising: a remote host; a plurality of remote time-synchronized subsystems; and an integrated node communicatively coupled to the remote host and the plurality of remote time-synchronized subsystems, the integrated node comprising a programmable logic controller comprising: one or more input-output units configured to transfer communications between the programmable logic controller, the plurality of remote time-synchronized subsystems, and the remote host; a database server configured to archive, in a plurality of time-stamped archive files, data acquired from the plurality of remote time-synchronized subsystems; a data acquirer configured to periodically acquire time-stamped data from each of the plurality of remote time-synchronized subsystems and to archive the time-stamped data, the time-stamped data comprising measurements; and a data verifier comprising program instructions stored on a non-transitory computer-readable storage medium, the program instructions being executable by a processor of the programmable logic controller, to cause the following operations: determine out-of-bounds measurements of the time-stamped data, each of the out-of-bounds measurements of the time-stamped data comprising a measurement of the time-stamped data having a value above an upper bound value or below a lower bound value; substitute new measurements for the out-of-bounds measurements of the time-stamped data to generate a plurality of verified measurements comprising the measurements of the time-stamped data comprising the new measurements substituted for the out-of-bounds measurements, wherein each of the new measurements substituted for an out-of-bound measurement comprises a minimal value of measurements of an interval of past measurements or a maximal value of the measurements of the interval of past measurements, wherein the one or more input-output units is configured to send the plurality of verified measurements to the remote host; and commanding, in response to determining the out-of-bounds measurements of the time-stamped data, the data acquirer to suspend acquiring time-stamped data from one or more of the plurality of remote time-synchronized subsystems.

2. A programmable logic controller as defined in claim 1 , wherein determine the out-of-bounds measurements of the time-stamped data comprises determining a first out-of-bounds measurement of the time-stamped data, the first out-of-bounds measurement comprising a first measurement in the time-stamped data acquired from the plurality of remote time-synchronized subsystems; and wherein substitute the new measurements for the out-of-bounds measurements of the time- stamped data comprises substituting a second measurement for the first out-of-bounds measurement of the time-stamped data, and wherein the second measurement comprises the minimal value of the measurements of the interval of past measurements or the maximal value of the measurements of the interval of past measurements so that the plurality of verified measurements comprise the substituted second measurement.

3. A programmable logic controller as defined in claim 2 , wherein substituting the second measurement for the first out-of-bounds measurement of the time-stamped data comprises discarding the first out-of-bounds measurement.

4. A programmable logic controller as defined in claim 1 , wherein the operations further comprise: determining whether flow measurements in the time-stamped data are compensated for; and performing, in response to determining that the flow measurements in the time-stamped data are not compensated for, compensation of the flow measurements in the time-stamped data.

5. A programmable logic controller as defined in claim 1 , wherein the operations further comprise: adjusting one or more data filtering bounds according to a predefined accuracy configuration including confidence factors assigned to one or more measurements of the time-stamped data.

6. A programmable logic controller as defined in claim 1 , further comprising: a data reconciler comprising a program instructions stored on the non-transitory computer-readable storage medium, the program instructions being executable by the processor of the programmable logic controller, to cause the following operations: determine an operating state of the plurality of remote time-synchronized subsystems; and reconcile the plurality of verified measurements based on the operating state of the plurality of remote time-synchronized subsystems.

7. A programmable logic controller as defined in claim 6 , wherein the operations caused by the execution of the program instructions of the data reconciler further comprise: determining an operating state of one or more process units of the plurality of the remote time-synchronized subsystems based on the plurality of verified measurements from the plurality of remote-time synchronized subsystems; determining a reconciliation model based on the plurality of verified measurements, the reconciliation model corresponding to the one or more process units and the operating state determined for the one or more process units; and reconciling the plurality of verified measurements based on the reconciliation model, the reconciling based on the reconciliation model employing a sequential quadratic programming algorithm to determine a plurality of reconciled measurements.

8. A programmable logic controller as defined in claim 6 , wherein the operations caused by the execution of the program instructions of the data reconciler further comprise: detecting a change in the operating state of the one or more process units responsive to the plurality of verified measurements; and determining a new reconciliation model for the one or more process units responsive to the change in the operating state detected, wherein the reconciliation operation proceeds based on the new reconciliation model.

9. A programmable logic controller as defined in claim 6 , wherein the operations caused by the execution of the program instructions of the data reconciler further comprise: detecting errors in reconciled measurements; determining a probability of error existence in values of the reconciled measurements; flagging the reconciled measurements having a probability of error that exceed a preselected confidence level; and removing the reconciled measurements with detected errors according to a preselected priority scheme comprising one of the following: providing priority to remove the reconciled measurements with a magnitude of corrections above a given magnitude, or providing the priority to remove the reconciled measurements with an impact on a total sum of reconciliation run penalty above a given impact.

10. Non-transitory computer-readable storage medium comprising program instructions stored thereon, the program instructions being executable by a processor to cause the following operations: transferring communications between an integrated node, a plurality of remote time synchronized subsystems, and a remote host; acquiring, by the integrated node and from each of the plurality of remote time-synchronized subsystems, time-stamped data comprising measurements; determining, by the integrated node, out-of-bounds measurements of the time-stamped data, each of the out-of-bounds measurements of the time-stamped data comprising a measurement of the time-stamped data having a value above an upper bound value or below a lower bound value; substituting, by the integrated node, new measurements for the out-of-bounds measurements of the time-stamped data to generate a plurality of verified measurements comprising the measurements of the time-stamped data comprising the new measurements substituted for the out-of-bounds measurements, wherein each of the new measurements substituted for an out-of-bound measurement comprises a minimal value of measurements of an interval of past measurements or a maximal value of the measurements of the interval of past measurements; sending, by the integrated node, the plurality of verified measurements to the remote host; and suspending, in response to determining the out-of-bounds measurements of the time-stamped data, the acquiring of time-stamped data from one or more of the plurality of remote time-synchronized subsystems.

11. Non-transitory computer readable medium as defined in claim 10 , wherein determining the out-of-bounds measurements of the time-stamped data comprises determining a first out-of-bounds measurement of the time-stamped data, the first out-of-bounds measurement comprising a first measurement in the time-stamped data acquired from each of the plurality of remote time-synchronized subsystems; and wherein substituting the new measurements for the out-of-bounds measurements of the time-stamped data comprises substituting a second measurement for the first out-of-bounds measurement of the time-stamped data, and wherein the second measurement comprises the minimal value of the measurements of the interval of past measurements or the maximal value of the measurements of the interval of past measurements so that the plurality of verified measurements comprise the substituted second measurement.

12. Non-transitory computer readable medium as defined in claim 10 , wherein the operations further comprise: determining whether flow measurements in the time-stamped data are compensated for; and performing, in response to determining that the flow measurements in the time-stamped data are not compensated for, compensation of the flow measurements in the time-stamped data.

13. Non-transitory computer readable medium as defined in claim 10 , wherein the operations further comprise: determining an operating state of the plurality of remote time-synchronized subsystems; and reconciling the plurality of verified measurements based on the operating state of the plurality of remote time-synchronized subsystems determined.

14. Non-transitory computer readable medium as defined in claim 10 , wherein the operations further comprise determining an operating state of one or more process units of the plurality of the remote time-synchronized subsystems based on the plurality of verified measurements from the plurality of remote-time synchronized subsystems, determining a reconciliation model based on the plurality of verified measurements, the reconciliation model corresponding to the one or more process units and the operating state determined for the one or more process units, and reconciling the plurality of verified measurements based on the reconciliation model, the reconciling based on the reconciliation model employing a sequential quadratic programming algorithm to determine a plurality of reconciled measurements.

15. Non-transitory computer readable medium as defined in claim 13 , wherein the operations further comprise: detecting errors in reconciled measurements; determining a probability of error existence in values of the reconciled measurements; flagging the reconciled measurements having a probability of error that exceed a preselected confidence level; and removing the reconciled measurements with detected errors according to a preselected priority scheme comprising one of the following: providing priority to remove the reconciled measurements with a magnitude of corrections above a given magnitude, or providing the priority to remove the reconciled measurements with an impact on a total sum of reconciliation run penalty above a given impact.

16. A method comprising the steps of: transferring communications between an integrated node, a plurality of remote time synchronized subsystems, and a remote host; acquiring, by the integrated node and from each of the plurality of remote time-synchronized subsystems, time-stamped data comprising measurements; determining, by the integrated node, out-of-bounds measurements of the time-stamped data, each of the out-of-bounds measurements of the time-stamped data comprising a measurement of the time-stamped data having a value above an upper bound value or below a lower bound value; substituting, by the integrated node, new measurements for the out-of-bounds measurements of the time-stamped data to generate a plurality of verified measurements comprising the measurements of the time-stamped data comprising the new measurements substituted for the out-of-bounds measurements, wherein each of the new measurements substituted for an out-of-bound measurement comprises a minimal value of measurements of an interval of past measurements or a maximal value of the measurements of the interval of past measurements; sending, by the integrated node, the plurality of verified measurements to the remote host; and suspending, in response to determining the out-of-bounds measurements of the time-stamped data, the acquiring of time-stamped data from one or more of the plurality of remote time-synchronized subsystems.

17. A method as defined in claim 16 , wherein determining the out-of-bounds measurements of the time-stamped data comprises determining a first out-of-bounds measurement of the time-stamped data, the first out-of-bounds measurement comprising a first measurement in the time-stamped data acquired from the plurality of remote time-synchronized subsystems; and wherein substituting the new measurements for the out-of-bounds measurements of the time-stamped data comprises substituting a second measurement for the first out-of-bounds measurement of the time-stamped data, and wherein the second measurement comprises the minimal value of the measurements of the interval of past measurements or the maximal value of the measurements of the interval of past measurements so that the plurality of verified measurements comprise the substituted second measurement.

18. A method as defined in claim 16 , further comprising the steps of: determining whether flow measurements in the time-stamped data are compensated for; and performing, in response to determining that the flow measurements in the time-stamped data are not compensated for, compensation of the flow measurements in the time-stamped data.

19. A method as defined in claim 16 , further comprising the steps of: determining an operating state of the plurality of remote time-synchronized subsystems; and reconciling the plurality of verified measurements based on the operating state of the plurality of remote time-synchronized subsystems determined.

20. A method as defined in claim 19 , further comprising the steps of: determining an operating state of one or more process units of the plurality of the remote time-synchronized subsystems based on the plurality of verified measurements from the plurality of remote-time synchronized subsystems, determining a reconciliation model based on the plurality of verified measurements, the reconciliation model corresponding to the one or more process units and the operating state determined for the one or more process units, and reconciling the plurality of verified measurements based on the reconciliation model, the reconciling based on the reconciliation model employing a sequential quadratic programming algorithm to determine a plurality of reconciled measurements.

21. A method as defined in claim 19 , further comprising the steps of: detecting errors in reconciled measurements; determining a probability of error existence in values of the reconciled measurements; flagging the reconciled measurements having a probability of error that exceed a preselected confidence level; and removing the reconciled measurements with detected errors according to a preselected priority scheme comprising one of the following: providing priority to remove the reconciled measurements with a magnitude of corrections above a given magnitude, or providing the priority to remove the reconciled measurements with an impact on a total sum of reconciliation run penalty above a given impact.